DE10218113A1 - Lever type connector - Google Patents

Abstract

In a state in which a lever (20) is in its waiting position to mate the existing lever-type connector (A) with a mating connector (B), projecting end portions (22A) of the arm parts (22) of the connector (A ) of the lever type from the operating part (21) downwards. In the two right and left end portions on the lower surface of a connector housing (10), shock-absorbing portions (19) are arranged, which in a state in which the lever (20) is in its waiting position, down over the protruding end portions (22A) of the arm parts (22) protrude. When the lever type connector (A) falls down in an orientation with the protruding end portions (22A) facing downward, the impact receiving portions (19) first strike a falling end surface (G) so that the main part of the drop impact is received by the shock-absorbing sections (19).

Description

BACKGROUND OF THE INVENTION

The present invention relates to a connector of the lever type.

If a pair of connectors with a waterproof function and a shielding function by hand connected and separated not just a waterproof seal ring, which is arranged on a connector, in sliding con clocks with the peripheral surface of the other connector thereby generating frictional resistance, but also the outer peripheral surface of a shielding shell, which in other connector is arranged, comes into sliding contact with the inner peripheral surface of a shielding sheet le, which is arranged in the other connector, whereby Frictional resistance is generated; these two types of friction resistors hinder the smooth connection and disconnections of the two connectors.

In view of the above, the operability at the connection and disconnection processes of the two connectors used an arrangement in which a He Bel is arranged rotatably in a connector Cam pin is arranged in the other connector, wherein the cam pin engages a cam recess in the lever is ge and thus in the engaged state of the lever is rotated to ver the two connectors together bind or separate. With this arrangement  can, even if the operating force when rotating is small, due to the cam effect (leverage) high connecting force or a high separating force on the both connectors are applied.

As shown in Figs. 8 and 9, in the case of the above-mentioned lever-type connector 100, a lever 102 of the connector 100 has an operating part 103 which is narrow and long on the right and left sides thereof and a pair of plate-shaped arm members 104 protrudes from each of the two end sections of the actuating part 103 , two cam recesses 105 being formed in each of the two arm parts 104 . Two bearing openings 107 , which are each formed in the two arm parts 104 , sit on their associated bearing shafts 106 , which are provided on the right and left outer side surfaces of a connector housing 101 and protrude therefrom, whereby the lever 102 is rotatably mounted on the connector housing 101 can. When this lever type connector 100 is connected to an associated connector (not shown), the lever 102 is oriented in a certain waiting position and the entrances of the cam recesses 105 are opened towards the cam pins (not shown) of the associated connector; in this state, the two connectors are brought closer together to bring the cam pins into the entrances of the cam recesses, and in this state the lever 102 is rotated.

When the lever 102 is in the above-mentioned waiting position, there is a possibility that the protruding end portions 104 A of the arm portions 104 each protruding from the operation portion 103 depending on the direction of the two connectors together, the shapes of the cam recesses 105 and the Point the shape of the connector housing 101 downward.

If an operator inadvertently slips with his or her hand, causing the lever-type connector 100 to fall down on a floor surface, in the case where the lever-type connector 100 is slightly slanted, the protruding end portions 104 A of the arm portions 104 initially on the ground surface G, and hence the drop impact of the connector 100 acts on the weight of the connector 100 of the lever type and the weight of an electric wire, of the binder with the Ver 100 of the lever-type sub-base, entirely on the arm portions 104th As a result, there is a risk that the lever 102 may break or the lever 102 may become detached from the bearing shafts 106 .

Especially when the connector of the lever type in ei Nem circuit, for example a power switch circuit is used in an electric vehicle, in which A high current is flowing because of a connector metal part and an electrical wire is thick and heavy that Large drop in the connector and therefore damage of the lever correspondingly large.

SUMMARY OF THE INVENTION

The present invention seeks to address the disadvantages eliminate what is known in the aforementioned Have the lever type connector found. So it's one Object of the invention, a connector of the lever type be to sit on, which can protect the lever from damage, when the connector falls on the floor.

According to a first aspect of the invention, a ver Binder of the lever type provided, one lever being a loading  operating part and a pair of arm parts, which each because he from the two ends of the actuator stretch, the arm parts of the lever each on the two right and left outer side surfaces of one Connector housing are arranged includes; in which, when the lever is in its waiting position, the entrances of cam recesses, each in the arm parts are trained in the direction of a matching Ver binders are open, cam pins each in the one steps of the cam recesses and the lever is rotated, whereby the connector of the lever type with the matching connector is put together, and wherein in a state in which the lever in the waiting position tion, the protruding end portions of the arm parts, which protrude from the operating part, down point, characterized in that in the two right and left end portions of the lower surface of the ver binder housing shock-absorbing sections arranged are in a state in which the lever in the waiting position is down over the above Protruding end portions of the arm parts.

Furthermore, according to a second aspect of the invention with a connector of the lever type, as in the first Aspect of the invention is carried out, the snapshot the sections formed so that they are adjacent and ge towards the inner surfaces of the projecting ends cuts of the arm parts are.

Furthermore, according to a third aspect, the inven with a connector of the lever type, as in the first and second aspect of the invention shock-absorbing sections formed so that they Fill in the free spaces, each between the previous bouncing end sections of the arm parts and the outer Side surfaces of the connector housing are formed.  

With a connector of the lever type, as in which he most aspect of the present invention, get when the present lever type connector in a position where the lever in the Waiting position and the protruding end portions of the Point the arm parts down, the shock absorbing Ab cut first with a surface ending the fall in contact and thus the majority of the drop impact of the lever type connector from the impact pickers Sections added. So there is hardly a possibility the drop of the lever-type connector the projecting end portions of the arm parts are applied can be.

In the case where the present connector of the Lever type falls down, there is a risk that after the shock absorbing sections once with the case terminating surface have collided, the verb that of the lever type can jump up and then when he is falls again, the protruding end portions of the arm parts hit the surface that ends the fall or the protruding end portions of the arm parts can against beat other components that end the case the surface are present. According to the second aspect of the invention, however, because the shock-absorbing Sections are adjacent and opposite to the inner one Surfaces of the protruding end portions of the arm parts are arranged, even in the case where the protruding End portions of the arm parts tend to be pointing towards the outer side surfaces of the connector housing to ver bend the protruding end portions in contact with the shock absorbing sections, which prevents the protruding end portions bend strongly. Consequently the risk of the lever being broken can be eliminated can be or due to the connector housing  the bending protruding end portions of the arm parts solves.

According to the above description, if the present lever type connector falls down, a hazard in that after the pick-up Ab cut once with the surface ending the fall Contact, the lever type connector is high can jump and, if he falls again, the projecting end portions of the arm parts against the Falling surface can come across or the front bouncing end sections of the arm parts can against other right-hand parts, which in the waiter ending the case are available. According to the third aspect of Er However, the invention exists because the free spaces, which each between the projecting end portions of the arm parts and the outer side surfaces of the connector housing the shock-absorbing sections are filled, none Risk of the protruding end portions of the lever toward the side surface side of the connector mountain be bent. This can eliminate the danger that the lever can be broken or from that Connector housing due to the curved protruding End sections of the arm parts loosens.

BRIEF DESCRIPTION OF THE DRAWING

Fig. 1 is a perspective view of one embodiment of the invention 1, the He, thereof from the front considered a connector of the lever type according to;

FIG. 2 is a perspective view of the embodiment 1, as viewed from the rear surface thereof; FIG.

Fig. 3 is a front view of Embodiment 1;

Fig. 4 is a rear view of Embodiment 1;

Fig. 5 is a side view of Embodiment 1;

Fig. 6 is a bottom view of the Ausfüh approximate shape 1;

Fig. 7 is a front view of a further form exporting approximately 2 of a connector of the lever type according to the invention He;

Fig. 8 is a perspective view of a known lever type connector; and

Fig. 9 is a front view of the above known lever type connector.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS Embodiment 1

The following is a description of an embodiment 1 of a lever type connector according to the invention with reference to FIGS . 1 to 6.

The lever type connector A according to the present embodiment has a connector housing 10 made of plastic and a lever 20 made of plastic. In the Ver binder housing 10 are three forward projecting circular connector holding parts 11 in a direction from right to left (horizontal direction) of the connector housing 10 and a hood part 12 which is elongated in an elliptical shape in the horizontal direction to the three connector holding parts 11 together. Female connection metal parts 13 (see FIG. 4) are inserted into the three connection holding parts 11 from the rear of the connection holding parts 11 . Furthermore, three shielding shells 14 (cf. FIG. 3) are arranged on the connector housing 10 , each of which has a front end section which is divided into four parts in the circumferential direction thereof in such a way that the shielding shells 14 extend along the outer circumferences of the respective connection holding parts 11 extend. The shielding shells 14 comprise the female metal connection parts 13 , which are included in the connection holding parts 11 , in order to fulfill their respective shielding functions. Furthermore, three circular fitting cylinder sections 15 (cf. FIG. 3) are formed on the inner end face of the hood part 12 in a projecting manner, each of which is concentric with the associated connection holding parts 11 ; Sealing rings 16 for watertightness (compare FIG. 3) are each inserted into the outer surfaces of the outer circumferences of the associated fitting cylinder sections 15 . Next, a pair of bearing shafts 17 each projecting on the right and left outer side surfaces of the hood part 12 is formed. In addition, 12 recesses 18 are arranged in the hood part, each of which is formed by cutting the hood part 12 narrow and long to the rear from the front edge of the hood part 12 who the.

The lever 20 has an operating part 21 which is narrow and elongated in a right-to-left direction of the lever 20 , and a pair of plate-shaped arm parts 22 which protrude parallel to each other from the right and left end portions of the operating part 21 , which Actuating part 21 and the pair of arm parts 22 are cast as a one-piece unit. Bearing openings 23 are formed in the arm parts 22 and in the case in which the bearing openings 23 are each brought together with the associated bearing shafts 17 , the lever 20 can be arranged on the connector housing 10 such that it can rotate. Furthermore, 22 cam recesses 24 are formed on the inner surfaces of the arm parts, the respective inlets 24 A of which open in the outer circumferential edges of the arm parts 22 . Each of the cam recesses 24 has a substantially spiral shape with the bearing opening 23 of the arm portion 20 as the center, each cam recess 24 of the associated La geröffnung 23 approaches when moving towards the inner end point.

A matching connector B is formed in a horizontally elongated elliptical shape, which cher can be used in the connector A of the lever type such that it extends along the inner circumference of the hood part 12 . In the front surface (the surface facing toward the lever type connector A) of the mating connector B, three recessed fitting portions 30 are formed, into which the three fitting cylinder portions 15 are inserted, respectively. In the process of joining and separating the two connectors A and B relative to each other, the sealing rings 16 come on the outer circumferences of the Paßzylin derabschnitte 15 with elastic deformation in sliding contact with the inner circumferences of the recessed pass sections 30th Furthermore, in the inner portions of the respective recessed fitting portions 30 from shield shells 31 are arranged (see FIG. 3) which can be brought into contact with the outer surfaces of the shield shells 14 of the connector A of the lever type. The inner diameter of each shield shell 31 in a free state thereof is smaller than the outer diameter of each shield shell 14 in the connector A of the lever type. In the process of joining and separating the two connectors A and B, the shield shells 31 , which are bent elastically in one direction, which increases the diameter thereof, come into contact with the respective shield shells 14 . Furthermore, a pair of cam pins 32 is formed on the right and left outer side surfaces of the matching connector B in a projecting manner.

In order to join the connector A of the lever type according to the present embodiment with the matching connector B, the lever 20 is first rotated into its waiting position and the inlets 24 A of the cam recesses 24 are not only open towards the front (ie in the direction which corresponds to the cam pins 32 of the matching connector B), but are also kept in the states in which they correspond to the recesses 18 of the housing part 12 (see FIG. 3). In this state, the connector A of the lever type is brought closer to the matching connector B, the cam pins 32 are each moved into the inlets 24 A of the associated cam recesses 24 , and the hood parts 12 are easily inserted into the outer surface of the connector B to be fitted. In the case where the lever 20 is rotated out of this state, due to the engagement between the cam recesses 24 and cam pins 32, the connector A of the lever type is pulled close to the matching connector B.

In the joining process three types of frictional resistance are generated: namely a frictional resistance, which is generated by the elastic sliding contact between the shielding shells 14 and 31 ; a frictional resistance due to the elastic sliding contact between the sealing rings 16 and the inner circumferences of the recessed fitting sections; and a frictional resistance due to the elastic sliding contact between the female connection metal parts 13 and the male connection metal parts (see FIG. 3). These three types of friction resistances are obstacles to a smooth assembly process. Due to a cam action (leverage) by the engagement between the cam recesses 24 and the cam pins 32 obtained by the rotation of the lever 20 , even in the case where the actuating force of the lever 20 is small, the joining operation of the two connectors A and B go smoothly. Incidentally, to disconnect the two connectors A and B from each other, the above procedure can be carried out in the reverse direction (a detailed description thereof is omitted). In this case, too, the two connectors A and B can be easily separated from one another with little actuation force due to the cam action (leverage effect).

In the connector type A of the lever type according to the present invention, in a state in which the lever 20 is rotated to the waiting position, projecting end portions 22 A, which are arranged on the operating portions 21 of the arm parts 22 and protrude therefrom, face downward. This means that the actuating parts 21 are above the bearing openings 23 and bearing shafts 17 , whereas the projecting end sections 22 A are below the bearing openings 23 and bearing shafts 17 . Further, the projecting end portions 22 A not only extend practically rectilinearly in a direction from the front to the front, but are practically in alignment with the lower surface of the hood part 12 . Since the bonnet part 12 has an elliptical shape which, when viewed from the front, as can be seen in Fig. 3, there is an arcuate region below the center of rotation of the lever 20 in the bonnet part 12 partially downward from the arm parts 22 , ie in the horizontal direction (in the right and left direction) with respect to the arm parts 22 .

In the process of assembling the lever type connector A with the matching connector B, when an operator slips his or her hand inadvertently, so that the lever type connector A falls down on a case-ending surface G, in In a case where the drop orientation of the lever-type connector A is inclined to the right or left, the downward projecting end portion 22 A of the arm parts 22 coincides with the surface G that ends the fall, and thus the drop impact due to the weights of the connector A becomes Lever types and electrical wires, which verbun with the female terminal metal parts 13 are fully applied to the arm parts 22 . In this case, there is a risk that the lever 20 may break or the lever 20 may come loose from the bearing shafts 17 .

In view of this, according to the present embodiment, the following measures are taken: in the right and left end portions on the lower surface of the main part 12 of the connector housing 10 , shock absorbing portions 19 are formed, which are in a state in which the lever 20 is in the waiting position is, protrude down over the projecting end portions 22 A of the arm parts 22 . Each of the shock-absorbing sections 19 also has a shape which fills a space between the projecting end section 22 A of the arm part 22 and the outer surface of the hood part 12 ; therefore, in a state in which the lever 20 is in the waiting position, the flat outer surfaces 19 S of the shock-absorbing portions 19 ge with respect to the inner surfaces of the arm portions 22 with little space therebetween. Furthermore, the lower surfaces 19 L of the shock-absorbing portions 19 are flat and run uniformly to the lower surface of the main part 12 .

Due to this structure, in the case where the lever type connector A falls down while the lever 20 is in the waiting position and the projecting end portions 22 A of the lever 20 face down, the lower surfaces 19 L of the flat plates of FIG butt-receiving sections 19 first together with the case ending G surface, so that the main part of the drop impact on the connector A of the lever type is received by the shock-absorbing sections 19 . Further, as shown in Fig. 3, in the case where the drop orientation of the lever type connector A is inclined to the right or left, one of the right and left shock absorbing portions 19 also collides with the case ending surface G; In this case, too, the main part of the drop impact is absorbed by the existing shock-absorbing section 19 . Further, particularly in this case, the corner edge section 19 A of the existing shock-absorbing portion 19 , which is a connecting portion between the lower surface 19 L and the outer side surface 19 L of the respective impact-absorbing portion 19 , collides with the surface G that ends the fall. That is, in the case where the lever type connector A falls substantially in the same orientation as that when it is connected to the mating connector 8 (in the position where the protruding end portions 22 A of the arm portions 22 are substantially facing down), the arm portions of the lever 20 can be protected from the crash in the event terminating surface, and thus the drop impact of the Verbin DERS A lever type can hardly sections on the projecting From 22 A of the arm portions 22 act ,

Also, in the case where the lever type connector A falls down on the falling surface G, there is the following danger: after the shock absorbing portions 19 have collided with the falling surface G, the lever type connector A jumps again high; Then, when the connector A to the case of terminating surface G to back coat the lever type, the projecting end portions can turn 22 A of the arm portions 22 at the case of terminating surface G, or the projecting end portions 22 A of the arm portions 22 may against other parts (not shown ) that exist on the surface G that ends the fall. However, in the present exporting the outer side surfaces approximate shape 19 S of schlagaufneh Menden portions 19 adjacent to and opposite to the inner surfaces of the projecting end portions 22 A of the arm portions 22 are arranged, reach, even in the case where the projecting end portions 22 A of the arm members 22 begin to bend toward the outer surface of the connector housing 10 (hood member 12 ) at the time when the projecting end portions 22 A are only slightly bent, the projecting end portions 22 A in contact with the outer side surfaces 19S of the shock-absorbing sections 19 , so that the projecting end sections 22 A are prevented from severe bending. Furthermore, since the respective distances, which are present between the projecting end sections 22 A of the arm parts 22 and the outer side surfaces of the hood part 12 , are filled by the respective shock-absorbing sections 19 , there is no risk that the projecting end sections 22 A of the lever 20 can be bent strongly in the direction of the hood part 12 ver. Therefore, the lever 20 can be protected from breakage or from a detachment from the connector housing 10 due to bent projecting Endab sections 22 A.

Embodiment 2

A description will now be given of a second embodiment of a lever type connector according to the invention with reference to FIG. 7.

This embodiment differs from the above first embodiment 1 in the design of the shock-absorbing sections 35 . The remaining portions of the present embodiment are the same as in Embodiment 1. Thus, like parts of the present embodiment have the same reference numerals, and so the description of the arrangement, operations and effects are omitted here.

The shock-absorbing portions 35 in the present embodiment 2 are formed on the two right and left end portions of the lower surface of the housing part 12 , respectively, and in a state in which the lever 20 is in the waiting position, they stand down over the projecting end portions 22 A the arm parts 22 before. Furthermore, protective sections 36 are formed in the shock-absorbing sections 35 , which extend horizontally outwards, these protective sections 36 being arranged adjacent to each other and opposite the lower edges of the projecting end sections 22 A of the arm parts 22 . The shock-absorbing sections 35 fill similarly to the impact-absorbing sections 19 in accordance with embodiment 1 from spaces which are in each case between the projecting end sections 22 A of the arm parts 22 and the outer side surfaces of the hood part 12 ; the flat outer surfaces 35 S of the shock-absorbing sections 35 lie opposite the inner surfaces of the arm parts 22 with a small distance therebetween.

Since the impact-receiving portions of the present embodiment 2 contain the protection portions 36 of 35, even in a case in which the Nei supply angle can, the inclined orientation of the connector B of the lever type for the case as is larger in embodiment 1, the projecting end portion 22 A of Arm parts 22 are securely protected from a collision with the surface G limiting the case.

Other embodiments

The present invention is not based on the above Description with reference to the accompanying drawing limited embodiments explained, but at for example, the following embodiments also under the technical subject of the invention fall. In addition to the following, various changes and modifications also possible without the scope of the attached Aspects differ.

• 1. In the illustrated embodiments, the shock-absorbing sections formed so that they the Fill in free spaces, each between the outer Side surfaces of the connector housing and the project the end portions of the arm parts are present. According to the However, the shock-absorbing sections can be invented can also be attached in places where relatively adjacent to the projecting end portions of the arm parts are such that the distances between the Connector housing and arm parts not from the impact-absorbing sections are filled out, but remain unchanged.  
• 2. In the illustrated embodiments, this was done a description of a lever type connector with egg ner waterproof function and a shielding function on. However, the invention can also apply to a connector of the lever type can be applied, which is either a what has a watertightness function or a shielding function, or a lever type connector that is neither a Water resistance function yet another shielding function Has.
• 3. In the illustrated embodiments, the shock absorbing sections formed so that they be neighboring and opposite the inner surfaces of the front bouncing end portions of the arm parts. According to the Invention, the shock-absorbing sections can even if trained to be relatively large the projecting end portions of the Have arm pieces.
• 4. In the illustrated embodiments, the shock-absorbing sections formed so that they the Clearances between the projecting end sections of the Arm pieces and the outer side surfaces of the connector Fill in the housing (part of the hood). According to the invention can NEN the shock-absorbing sections are also formed be that the distances between each of the projections end portions of the arm parts and the outer side surfaces of the connector housing (hood part) to fill.

Claims (3)

1. A lever type connector with:
a lever having an operating part and a pair of arm parts each extending from the two ends of the operating part, the arm parts of the lever being respectively supported on the two right and left outer side surfaces of a connector housing, the lever in a waiting position thereof is arranged;
Cam recesses, the inlets of which are each formed in the arm parts, the inlets being opened in the direction of the matching connector;
Cam pins which are each moved into the inlets of the cam recess;
the lever being rotated to mate the lever-type connector with the mating connector;
the protruding end portions of the arm parts each protruding from the operating part face downward in a state in which the lever is in the waiting position, and
shock-absorbing sections, which stood in a state in which the lever is in the waiting position, protrude downward beyond the projecting end sections of the arm parts and are arranged in the two right and left end sections of the lower surface of the connector housing. 2. The lever type connector according to claim 1, wherein the shock-absorbing sections are formed are that they are adjacent and opposite to the above inner surfaces of the projecting end portions of the Arm parts are.   3. The lever type connector according to claim 1, wherein the shock-absorbing sections are formed are that they fill in free spaces, each between the protruding end portions of the arm parts and the outer side surfaces of the connector housing are.